Taxonomic Revision and Examination of Ecological Transitions of the Lyophyllaceae (Basidiomycota, Agaricales) Based on a Multigene Phylogeny

Taxonomic Revision and Examination of Ecological Transitions of the Lyophyllaceae (Basidiomycota, Agaricales) Based on a Multigene Phylogeny

Cryptogamie, Mycologie, 2014, 35 (4): 399-425 © 2014 Adac. Tous droits réservés Taxonomic revision and examination of ecological transitions of the Lyophyllaceae (Basidiomycota, Agaricales) based on a multigene phylogeny Valérie HOFSTETTERa*, Scott Alan REDHEADb#, Frank KAUFFc#, Jean-Marc MONCALVOd, Patrick Brandon MATHENYe & Rytas VILGALYSf aAgroscope Changins-Wädenswil, Institut des sciences en production végétale IPV, CP1012, 1260 Nyon1, Switzerland e-mail: [email protected] bNational Mycological Herbarium, Eastern Cereal and Oilseed Research Centre, Science and Technology Branch, Agriculture and Agri-Food Canada, Ottawa, Ontario, Canada K1A 0C6 cFachbereich Biologie, Abt. Molekulare Phylogenetik, Technische Universität Kaiserslautern, Postfach 3049, 67653 Kaiserslautern, Germany dDepartment of Natural History, Royal Ontario Museum, and Department of Ecology & Evolutionary Biology, University of Toronto, Toronto, Ontario, Canada M5S 2C6 fDepartment of Ecology and Evolutionary Biology, University of Tennessee, Knoxville TN 37996-1610, USA gDepartment of Biology, Duke University, Durham, NC 27708, USA Abstract – We explored evolutionary relationships within the Lyophyllaceae by combining sequence data from six loci. The most likely phylogram led us to reconsider the Lyophyllaceae classification with the recognition of two new genera (Myochromella and Sagaranella) based on ecological and/or morphological distinctiveness. Lyophyllaceae are ecologically highly diversified and our phylogeny suggests that four to five ecological transitions from free-living to parasitic or mutualistic lifestyles have occurred within the family. Due to moderate phylogenetic support recovered for several relationships within that clade and due to the uncertainty about the ecological strategy adopted by five of the sampled species, three out of these transitions could be unequivocally reconstructed suggesting that saprotrophy is plesiomorphic for Lyophyllaceae. Significant differences in rates of molecular evolution were detected among taxa. These differences are not associated with ecological transitions throughout the Lyophyllaceae, however, within each of the major clades identified in the family, taxa of different ecological strategies show an overall tendency to evolve at different speeds at the molecular level. Bayesian / maximum likelihood / molecular clock / molecular systematics / multigene (ITS / nucLSU / mitSSU / RPB1 / RPB2 / TEF1-αα ) / relative rate tests * Correspondence author: [email protected] # Equal contribution doi/10.7872/crym.v35.iss4.2014.399 400 V. Hofstetter et al. INTRODUCTION The family Lyophyllaceae Jülich (Agaricales, Basidiomycota), or the tribe Lyophylleae Kühner, is part of the Tricholomatoid clade sensu Matheny et al. (2006), the latter being a group assembling white to cream and pink-spored agarics. The Lyophyllaceae include species commonly referred to the following genera: Asterophora Ditmar ex Link (= Nyctalis Fr.), Calocybe Kühner ex Donk, Hypsizygus Singer, Lyophyllum P. Karst., Podabrella Singer, Tephrocybe Donk, Ossicaulis Redhead and Ginns, Gerhardtia M. Bon (= subgenus Lyophyllopsis Gerhardt), Clitocybe p. p. and Termitomyces R. Heim (Hofstetter et al., 2002; Moncalvo et al., 2002; Matheny et al., 2006; Sánchez-García et al., 2014). All of these genera, with the exception of Ossicaulis and most of Clitocybe, have been characterized by the presence of siderophilous granule-filled basidia (Clémençon 1974, 1978, 1984, 1986, 1997; Kühner 1938; Singer 1986; Hofstetter et al., 2002). Clémençon (1986) defined various types of siderophilous granulation within Agaricales. The macro-type of siderophilous granulation is restricted to Lyophyllaceae sensu Matheny et al. (2006). However, some species classified in this family exhibit an oligo-type of granulation: Hypsizygus ulmarius (Bull.: Fr.) Redhead (= Lyophyllum ulmarium [Bull.: Fr.] Kühner) and Clitocybe connata variously treated in the literature as C. connata (Schum.: Fr.) Gillet or Lyophyllum (L. connatum (Schum.: Fr.) Singer) and recently segregated as Leucocybe (Alvarado et al., in press). Some doubts were raised as to the monophyly of the Lyophylleae sensu Singer (1986), in which were included Hypsizygus and Clitocybe connata, as was the monophyly of the residual Lyophyllaceae if the Termitomycetaceae were to be excluded. Moncalvo et al. (2002) built a single locus (nucLSU) phylogeny for Agaricales with representatives of Lyophyllaceae. Using multiple genes (nLSU, mtSSU and ITS), Hofstetter et al., (2002) analyzed species that were representative of all genera in the Lyophylleae, including some members of the closely related families Tricholomataceae and Entolomataceae along with several outgroups. The combined results of both studies shed new light on the taxonomic relationships in and around the Lyophyllaceae sensu auct. However, the weak phylogenetic support recovered in both studies for basal relationships prevented the authors from proposing a new classification for Lyophyllaceae. Three more recent phylogenetic studies added support to the monophyly of Lyophyllaceae (Baroni et al., 2011; Matheny et al., 2006; Sánchez- García et al., 2014). However, Matheny et al. (2006) recovered a sister relationship between Lyophyllaceae and Entolomataceae, whereas Baroni et al. (2011) recovered a sister relationship of Lyophyllaceae with Entoloma s.l. and a paraphyletic Entolomataceae. Recently, Sánchez-García et al. (2014) recovered the Lyophyllaceae basal to Tricholomataceae sensu stricto and Entolomataceae. Yet, none of these three studies recovered significant support for these basal relationships. Consequently relationships between Lyophyllaceae, Tricholomataceae and Entolomataceae remain unclear. The use of some morphological characters to define the different sections of the genus Lyophyllum is now debated because of the discovery of new species (i.e. Colucci and Galli, 2010; Contu et al., 2011; Dähncke et al., 2010; Dähncke et al., 2011; Vizzini and Contu, 2010). As shown by Hofstetter et al. (2002), the original generic type of Lyophyllum, L. leucophaeatum (P. Karst.) P. Karst., was more closely related to Calocybe sensu lato (incl. the generic type, C. gambosa (Fr.: Fr.) Donk), than to other “Lyophyllum”. The generic name, Lyophyllum was consequently maintained with a conserved type, L. semitale (Redhead et al., 2006) Taxonomic revision and examination of ecological transitions of the Lyophyllaceae 401 whereas L. leucophaeatum was placed in Calocybe as Calocybe gangraenosa (Fr.) Hofstetter, Moncalvo, Redhead and Vilgalys (Redhead, 2012). The Lyophyllaceae are ecologically highly diversified. This family contains the ectomycorrhizal species L. shimeji (Kawam.) Hongo and L. decastes (Fr.) Singer, which are part of the Lyophyllum decastes species complex (Agerer and Beenken, 1998; De Roman et al., 2005; Larsson and Sundberg, 2011; Moncalvo, 1991; Moncalvo et al., 1993; Ohta, 1994a,b; Pera and Alvarez 1995; Saito and Tanaka, 1999; Visnovsky et al., 2014; Yamada et al., 2001a,b). Hypsizygus and Ossicaulis decay wood on living trees (Singer, 1986; Holec and Kolarík, 2013; Redhead and Ginns, 1985) and might be considered either saprotrophs or parasites since it is not clearly assessed if they decompose wood that is already dead or not. Tephrocybe palustris is a necroparasite on Sphagnum (Limpens et al., 2003; Redhead, 1981; Untiedt and Mueller, 1985) that causes host protoplast degeneration (Davey and Currah, 2006; Limpens et al., 2003; Redhead, 1981; Untiedt and Mueller, 1985). Asterophora is parasitic on other mushrooms (Redhead and Seifert, 2001; Singer, 1986). The family also includes several nitrophilic species such as Tephrocybe tylicolor, T. gibberosa and Tricholomella constricta (Hofstetter et al., 2002). The genus Termitomyces, which is nested within the Lyophyllaceae (Hofstetter et al., 2002; Moncalvo et al., 2002; Matheny et al., 2006; Sánchez-García et al., 2014), is a group of insect-associated fungi cultivated by termites (Aanen et al., 2002; Guldberg-Frøslev et al., 2003; Heim, 1977; Rouland-Lefèvre et al., 2002, Wei et al., 2006). The other species of Lyophyllaceae are all saprotrophic according to Singer (1986). The high frequency of fungal symbioses in nature such as mycorrhizal associations with plants roots (Hibbett et al., 2002; Matheny et al., 2006, Moncalvo et al., 2002; Pirozynski and Malloch, 1975; Redecker et al., 2000; Tedersoo et al., 2010) or mutualistic relationships with algae and cyanobactaeria resulting in lichenization (Miadlikovska et al., 2006; Lutzoni et al., 2001; Schoch et al., 2009; Spatafora et al., 2006) suggest that mutualism is a successful evolutionary mechanism (Hawksworth, 2001; James et al., 2006). The clustering of mushroom- forming fungi with similar ecological strategies in specific taxonomic groups strongly indicates that ecological traits are evolutionary relatively stable, and are often better indicators of natural relationships than morphology (Moncalvo et al., 2002, Matheny et al., 2006). However, with few exceptions (e.g. Heim, 1977; Hughes et al., 2001; Redhead and Ginns, 1985; Redhead et al., 1994, 2002a,b; Thorn et al., 2000), little attention has been given to the ecology for the classification of fungi in general (Peay, 2014) except for its descriptive aspects (Ahmadjian, 1993; Hale, 1983; Hawksworth, 1984; Kühner, 1980; Singer, 1986). Part of the inherent difficulty in studying ecological shifts in fungi lays in the lack of direct empirical investigation

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